Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
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The DRB region of the human and great-ape major histocompatibility complex displays not only gene but also haplotype polymorphism. The number of genes in the human DRB region can vary from one to four, and even greater variability exists among the DRB haplotypes of chimpanzees, gorillas, and orangutans. Accumulating evidence indicates that, like gene polymorphism, part of the haplotype polymorphism predates speciation. In an effort to determine when the gene haplotype polymorphisms emerged in the primate lineage, we sequenced three cDNA clones of the New-World monkey, the cottontop tamarin (Saguinus oedipus). We could identify two DRB loci in this species, one (Saoe-DRB1) occupied by apparently functional alleles (*0101 and *0102) which differ by only two nucleotide substitutions and the other (Saoe-DRB2) occupied by an apparent pseudogene. The Saoe-DRB2 gene contains an extra sequence derived from the 3' portion of exon 2 and placed 5' to this exon. This sequence contains a stop codon which makes the translation of the bulk of the Saoe-DRB2 gene unlikely. Preliminary Southern blot hybridization analysis with probes derived from these two genes suggests that both the DRB gene polymorphism and the haplotype polymorphism in the cottontop tamarin may be low. In most individuals the DRB region of this species probably consists of three genes. Comparisons of the Saoe-DRB sequences with those of other primates suggest that probably all of the DRB genes found until now in the Catarrhini were derived from a common ancestor after the separation of the Catarrhini and Platyrrhini lineages. The extant DRB gene and haplotype polymorphism may therefore have been founded in the mid-Oligocene some 33 Mya.
Mol Biol Evol 1992 May
PMID:Major-histocompatibility-complex DRB genes of a New-World monkey, the cottontop tamarin (Saguinus oedipus). 158 11

The numbers and local sequence environments of the two types of substitution mutation plus additions and deletions have been obtained directly in this study from differences between a large number of extant primate gene and pseudogene sequences. A total of 3786 mutations were scored in regions where similarities between pseudogene and corresponding gene sequences is greater than or equal to 85%, comprising approximately 30% of the pseudogene database of 80,584 bp. The pattern of mutations obtained in this fashion is almost identical to that obtained by Li et al. (1984) using a slightly different, more direct approach and with a smaller database. When mutations were scored, the neighbor pairs on the 5' and 3' sides were also noted, leading to a large 16 x 12 matrix of transitions and transversions. Biases of varying magnitude are found in the rates of substitution of the same base pair in different local sequence environments. The overall order for the effect of the 5' neighbor on the rates of substitution mutation of a pyrimidine is A greater than C much greater than T greater than G, and G greater than A greater than T greater than C for the 3' neighbor; where these results represent the average of substitution rates for the complement purine with complement neighbors of bases ordered above. The order for the 3' neighbor is essentially the same for the two transitions and most of the four transversions as well; however, the order for the 5' neighbor is more variable. The overall rate for the C.G----T.A transition is not unusual, however the presence of a 3' neighboring G.C pair boosts the rate substantially, presumably due to specific cytosine methylation of the CG doublet in primate DNAs. The rate of the T.A----C.G transition is also well above average when the 3' neighbor is an A.T, and to a lesser extent a G.C, pair. The latter bias is typical in that it reflects the association of alternating pyrimidine-purine sequences with increasing mutation rates. The substitution of the pyrimidine in a 5'purine-pyrimidine-purine3' sequence generally occurs much faster than in a pyrimidine tract and points to the local conformation as a major determining factor of the substitution rate. An apparent inverse relationship is found between starting and product doublet frequencies of base pairs undergoing mutations with specific 3' neighbors, indicating that differences in intrinsic substitution rates of base pairs with specific neighbors are a key factor in producing the familiar biases of nearest-neighbor frequencies.
J Mol Evol 1992 Mar
PMID:The influence of nearest neighbors on the rate and pattern of spontaneous point mutations. 158 94

Two human apolipoprotein C-I genes, one of which is believed to be a pseudogene, are located within the lipoprotein gene cluster on chromosome 19. Alignments were made between the apoC-I and the pseudoC-I' genes using a computer sequence editor. Particular Alu sequences may be found in one gene or in both: the proposal is that common Alu sequences (found in both genes) were present before the duplication of the C-I gene, whereas single Alu sequences (present in only one gene) were transposed afterward. Alu sequences of the C-I genes were also classified into Alu families. Common sequences belong to older families of Alu genes, whereas single sequences belong to younger families. Marked change in the apolipoprotein C-I gene began during early radiation of primate lineages. Retropositions of older Alu sequences occurred throughout the Paleocene and the Eocene periods. The numbering of uncommon substitutions in the six common Alu sequences gives a good estimate of the duplication time for the C-I gene (39 +/- 6 million years) at the end of the Eocene. After that, the other Alu sequences were transposed into each gene and further substitutions occurred to give the present form of the C-I genes in humans.
J Mol Evol 1991 Mar
PMID:Duplication of the apolipoprotein C-I gene occurred about forty million years ago. 164 36

The human 7SK ribonucleoprotein (RNP) has been analyzed to determine its RNA secondary structure and protein constituents. HeLa cell 7SK RNA alone and within its RNP have been probed by chemical modification and enzymatic cleavage, and sites of modification or cleavage have been mapped by primer extension. The resulting secondary structure suggests that structural determinants necessary for capping (a 5' stem followed by the sequence AUPuUPuC) and nuclear migration (the sequence AUPuUPuC) of 7SK RNA may be similar to those for U6 small nuclear RNA (snRNA). It also supports existence of a 3' stem structure which could serve to self-prime cDNA synthesis during pseudogene formation. Oligonucleotide-directed RNase H digestion indicated regions of 7SK RNA capable of base pairing with other nucleic acids. Antisense 2'-O-methyl RNA oligonucleotides were used to affinity select the 7SK RNP from an in vivo 35S-labeled cell sonic extract and identify eight associated proteins of 83, 48, 45, 43, 42, 21, 18, and 13 kDa. 7SK RNA has extensive sequence complementarity to U4 snRNA, within the U4/U6 base pairing domain, and also to U11 snRNA. The possibility that the 7SK RNP is an unrecognized component of the pre-mRNA processing machinery is discussed.
Mol Cell Biol 1991 Jul
PMID:Structural analyses of the 7SK ribonucleoprotein (RNP), the most abundant human small RNP of unknown function. 164 89

We previously reported that there are three different copies of T-cell receptor beta chain constant region (C beta) genes in some rabbits, two of which are present on an approximately 16-kb and one on an approximately 6-kb Eco RI fragment. We also reported that one of the C beta genes on the approximately 16-kb fragment was chimeric, with a 5' cluster of J beta 2 segments and a 3' untranslated region of beta 1 type. Here we report the complete genomic sequences of the D beta 2 and J beta 2 segments associated with the chimeric C beta gene. The rabbit D beta 2 gene segment has very strong similarity to both its human and mouse counterparts. The sequence similarity also extends rather far from the coding region in both 5' and 3' directions. The content and organization of rabbit J beta 2 gene segments is similar to those found in both human and mouse. The rabbit J beta 2 cluster has six functional segments and one pseudogene, as well as a remnant of another pseudogene between J beta 2.2 and J beta 2.3 equivalent to the one found in man in the same location. The J beta 2.5 gene segment of rabbit has lost the splice signal and is a pseudogene unlike its counterparts in man and mouse. Overall analysis of the rabbit D beta 2-J beta 2 region reveals a closer similarity to human than mouse. However, the general organization of the gene segments in the D beta 2-J beta 2 regions of all three species is remarkably conserved over long stretches of DNA sequence.
Mol Immunol 1991 Aug
PMID:Evolutionarily conserved organization and sequences of germline diversity and joining regions of the rabbit T-cell receptor beta 2 chain. 167 59

We have analyzed the junction regions of inserted elements within the human amylase gene complex. This complex contains five genes which are expressed at high levels either in the pancreas or in the parotid gland. The proximal 5'-flanking regions of these genes contain two inserted elements. A gamma-actin pseudogene is located at a position 200 base pairs upstream of the first coding exon. All of the amylase genes contain this insert. The subsequent insertion of an endogenous retrovirus interrupted the gamma-actin pseudogene within its 3'-untranslated region. Nucleotide sequence analysis of the inserted elements associated with each of the five human amylase genes has revealed a series of molecular events during the recent history of this gene family. The data indicate that the entire gene family was generated during primate evolution from one ancestral gene copy and that the retroviral insertion activated a cryptic promoter.
Mol Cell Biol 1990 Jun
PMID:Retroviral and pseudogene insertion sites reveal the lineage of human salivary and pancreatic amylase genes from a single gene during primate evolution. 169 56

The existing classification of human Alu sequences is revised and expanded using a novel methodology and a larger set of sequence data. Our study confirms that there are two major Alu subfamilies, Alu-J and Alu-S. The Alu-S subfamily consists of at least five distinct subfamilies referred to as Alu-Sx, Alu-Sq, Alu-Sp, Alu-Sc, and Alu-Sb. The Alu-Sp and Alu-Sq subfamilies have been revealed by this study. Alu subfamilies differ from one another in a number of positions called diagnostic. In this paper the diagnostic positions are defined in quantitative terms and are used to evaluate statistical significance of the observed subfamilies. Each Alu subfamily most likely represents pseudogenes retroposed from evolving functional source Alu genes. Evidence presented in this paper indicates that Alu-Sp and Alu-Sc pseudogenes were retroposed from different source genes, during overlapping periods of time, and at different rates. Our analysis also indicates that the previously identified Alu-type transcript BC200 comes from an active Alu gene that might have existed even before the origin of dimeric Alu sequences. The source genes for Alu pseudogene families are reconstructed. It is assumed that diagnostic differences between reconstructed source genes reflect mutations that have occurred in true source Alu genes under natural selection. Some of these mutations are compensatory and are used to reconstruct a common secondary structure of Alu RNAs transcribed from the source genes. The biological function of Alu RNA is discussed in the context of its homology to the elongation-arresting domain of 7SL RNA.(ABSTRACT TRUNCATED AT 250 WORDS)
J Mol Evol 1991 Feb
PMID:Reconstruction and analysis of human Alu genes. 170 81

We reported previously that the herpes simplex virus type 1 (HSV-1) thymidine kinase reporter gene (tk) was expressed in the testes of transgenic mice when coupled to the promoter of a liver-specific mouse major urinary protein (MUP) gene. Here we show that HSV-1 tk is also expressed in the testis when coupled to a MUP pseudogene promoter, to a truncated MUP promoter that is not active in the liver, and to the promoter of the bovine thyroglobulin gene. Furthermore, HSV-1 tk itself was expressed in the testis, although its normal expression had been disabled by removing an upstream regulator of transcription. In every case, the same multiple transcripts were observed, with their 5' ends located downstream of the normal HSV-1 tk translation initiation codon. We conclude that the transcription of HSV-1 tk in the testis is directed by a cryptic TATA box-independent promoter located in the coding region of the gene. The longest HSV-1 thymidine kinase (TK) polypeptides synthesized in the testis were shorter than full-length TK and probably result from translational initiation at Met46 and Met60, the second and third ATG codons of the tk reading frame. Male mice of most transgenic lines were sterile, and the severity of the lesion in spermatogenesis was directly related to the level of TK expression. In the most highly expressing lines, sperm counts were low and morphologically defective sperm were common. In other sterile lines, TK was expressed at a lower level and sperm counts were normal but sperm motility was greatly reduced. Lines with the lowest levels of HSV-1 TK expression were fertile. HSV-1 TK was expressed in germ line cells, mainly in the haploid spermatids. However, low-level HSV-1 TK activity was found in the testis before the first germ cells entered meiosis, showing that if expression is confined to the germ cells, it also occurs in spermatogonia.
Mol Cell Biol 1991 Aug
PMID:The herpes simplex virus type 1 thymidine kinase is expressed in the testes of transgenic mice under the control of a cryptic promoter. 171 6

We have investigated the PCR amplification technique of viral nucleic acids as an alternative protocol for diagnosis and epidemiological studies of rabies virus. A primer set mapping in the nucleoprotein cistron allowed a specific and sensitive amplification of infected brain material, fulfilling the diagnosis requirements. One hundred samples checked by Southern or dot-blot analysis using both radioactive and non-radioactive probes showed identical results in parallel with routine techniques. For molecular epidemiological studies we selected another set of conserved primers flanking the highly evolutive pseudogene (psi gene) region. This set was found to be efficient for all tested fixed rabies virus strains or wild rabies virus isolates as well as the rabies-related Mokola virus. We describe a progressive characterization of the strain that could be extended from rapid typing by a limited panel of restriction enzymes, to the ultimate identification of the nucleotide sequence by an original direct sequencing technique of amplified segments.
Mol Cell Probes 1991 Jun
PMID:PCR technique as an alternative method for diagnosis and molecular epidemiology of rabies virus. 171 38

Analysis of the mitochondrial DNA of a liverwort Marchantia polymorpha by electron microscopy and restriction endonuclease mapping indicated that the liverwort mitochondrial genome was a single circular molecule of about 184,400 base-pairs. We have determined the complete sequence of the liverwort mitochondrial DNA and detected 94 possible genes in the sequence of 186,608 base-pairs. These included genes for three species of ribosomal RNA, 29 genes for 27 species of transfer RNA and 30 open reading frames (ORFs) for functionally known proteins (16 ribosomal proteins, 3 subunits of H(+)-ATPase, 3 subunits of cytochrome c oxidase, apocytochrome b protein and 7 subunits of NADH ubiquinone oxidoreductase). Three ORFs showed similarity to ORFs of unknown function in the mitochondrial genomes of other organisms. Furthermore, 29 ORFs were predicted as possible genes by using the index of G + C content in first, second and third letters of codons (42.0 +/- 10.9%, 37.0 +/- 13.2% and 26.4 +/- 9.4%, respectively) obtained from the codon usages of identified liverwort genes. To date, 32 introns belonging to either group I or group II intron have been found in the coding regions of 17 genes including ribosomal RNA genes (rrn18 and rrn26), a transfer RNA gene (trnS) and a pseudogene (psi nad7). RNA editing was apparently lacking in liverwort mitochondria since the nucleotide sequences of the liverwort mitochondrial DNA were well-conserved at the DNA level.
J Mol Biol 1992 Jan 05
PMID:Gene organization deduced from the complete sequence of liverwort Marchantia polymorpha mitochondrial DNA. A primitive form of plant mitochondrial genome. 173 Oct 62


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